PL67366Y1 - Three-arm corner construction node - Google Patents

Description

Description of the design The subject of the utility model is a three-arm construction knot, used especially for light, metal load-bearing structures of buildings, pavilions, car washes, shelters and the like. There are many metal structural knots in which beams and stringers are directly attached to the load-bearing poles. There are also knots in steel structures, in which the ends of the longitudinal elements are connected with each other by means of a metal sheet called a knot, to which are attached a welding or riveting technique. The essence of the solution according to the utility model consists in the fact that the wall of the column is laterally fastened one above the other with connectors similar to the channels that are open upwards, protruding two-sidedly beyond the sides of the column in the form of arms. In these arms, the ends of the longitudinals of the flat beam trusses are placed and fastened, and to the opposite wall of the mullion, fasteners, one above the other, are mounted, one above the other, having a shape similar to the open up channels. In these couplings, the ends of the girders of the flat beam trusses are placed and fixed. Corner ? between the frontally located trusses and the pole, equals the angle and between the connector arms and the pole, and the angle? equals the angle between the perpendicular connector and the pole? between the perpendicular truss and the mullion. Preferably, the fasteners have brackets connected to the post from the bottom. The advantage of the presented solution is that it is not very troublesome to transport the pole elements with fasteners prepared in the workshop, as well as the easy and short time of assembly and disassembly of the spatial structure at the construction site. This is made possible by oval holes in the sides of the connectors and shaped stringers, arranged in series, intended for the insertion of screws connecting the ends of the stringers to the arms. The object of the utility model is shown in the drawings, in which Fig. 1 shows the knot in an axonometric view, Fig. 2 is a top view of the node, and Fig. 3 is a side view from the front side of the double-sided trusses. The foot of the vertical bearing column 1 with a square cross-section is fastened with screws to the foundation footing sunk in the ground, at the top of which to one of the walls are welded sides, one above the other, in the shape of an open-top channel. The connector 2 protrudes bilaterally beyond the side of the column 1, forming the arms 2a and 2b, in which the ends of the longitudinals of the 3 4-beam flat trusses are placed. On the sides of the arms 2a and 2b there are several serially arranged oval holes 5, which correspond respectively to the corresponding holes in the ends of the stringers 3 of the trusses 4 and in these openings 5 there are screws connecting the arms 2 with the ends of the stringers 3. To the opposite side of the column 1 are fastened at the front, one above the other, the fasteners 7, in which the ends of the girders 8 of the 9-beam flat truss are placed. In the sides of the fasteners 7 there are several oval holes 10 arranged in series, which correspond to holes in the sides of the ends of the longitudinal members 8; in these holes 10 are placed bolts that fasten these elements. Corner ? between the truss 4 and the post 1 is equal to the angle and between the connectors 2 and the post 1, while the angle? between connectors 7 and post 1 is equal to the angle? between the girder 8 of the truss 9 and the column 1. The fasteners 2 have brackets 6 attached to the bottom, which are attached to the column 1, and the fasteners on the 7th have the supports 11 from the bottom, which are attached to the column 1. EN

Claims (1)

2 PL 67 366 Υ1 Description of the design The object of the utility model is a three-arm construction node, used especially for light, metal load-bearing structures of buildings, pavilions, car washes, shelters and the like. There are many metal construction nodes in which beams and stringers are attached directly to the load-bearing columns. Steel structure nodes are also known in which the ends of the longitudinal members are connected to each other by means of a metal plate to which they are attached by welding or riveting. The essence of the solution according to the utility model consists in the fact that to the wall of the column, laterally, one above the other, connectors are attached in the form similar to the U-bars that are open upwards, protruding on both sides beyond the sides of the column in the form of arms. In these arms, the ends of longitudinally flat beam trusses are placed and fastened, and to the opposite wall of the column, connectors, one above the other, are front-mounted, having a shape similar to the U-bars open upwards. The ends of longitudinally flat beam trusses are placed and fixed in these connectors. The angle β between the frontal trusses and the column equals the angle a between the legs of the connectors and the column, and the angle γ between the perpendicular connector and the column equals the angle δ between the perpendicular truss and the column. Preferably, the connectors have brackets on the underside connected to the pole. The advantage of the presented solution is the easy transport of the pole elements with connectors prepared in the workshop, as well as the easy and short time of assembly and disassembly of the spatial structure at the construction site. This is made possible by oval holes arranged in series in the sides of the connectors and shaped longitudinally shaped, intended to accommodate the bolts connecting the ends longitudinally to the legs. The object of the utility model is shown in the drawings, in which fig. 1 shows the knot in an axonometric view, fig. 2 is a top view of the knot, and fig. 3 is a side view from the front side of the double-sided trusses. The foot of the vertical bearing column 1 with a square cross-section is attached to the foundation footing sunk in the ground, at the top of which the connectors 2 are welded sideways, one above the other, in the shape of an open channel section. The connector 2 projects two-sidedly beyond the side of the column 1, forming the arms 2a and 2b, in which the ends of the longitudinally 3 flat 4-beam trusses are placed. On the sides of the arms 2a and 2b there are several serially arranged oval holes 5, which correspond to the corresponding holes in the ends longitudinally 3 of the trusses 4 and in these holes 5 there are bolts connecting the arms 2 with the ends longitudinally 3. To the opposite side of the column 1, there are frontal, one above the other, the connectors 7 in which the ends of the longitudinal 8 of the flat beam truss 9 are placed. In the sides of the connectors 7 there are several oval holes 10 arranged in series, which correspond to the holes in the sides of the ends longitudinally 8; in these holes 10 bolts engaging these elements are located. The angle β between the truss 4 and column 1 is equal to the angle a between the fasteners 2 and the column 1, while the angle δ between the fasteners 7 and the column 1 is equal to the angle γ between the girder 8 of the truss 9 and the column 1. The fasteners 2 have brackets 6 attached to their bottom, which are fastened to the column 1, and the connectors 7 have on their bottom supports 11, which are fastened to the column 1. Protective caveats 1. A three-arm construction node having a support element in the form of a rectangular column placed vertically on the ground, to which are attached longitudinal members of flat beam trusses, characterized in that laterally, one above the other, connectors (2) are attached to the wall of the column (1) in the form similar to the U-bars that are open upwards, protruding on both sides beyond the sides of the column (1) in the form of arms (2a, 2b ), in which the ends of longitudinally (3) flat beam trusses (4) are placed and fastened, and to the opposite wall of the column (1) are fixed one above the other, one-way connectors (7) in the form of and close to the open-top U-profiles, in which the ends of the longitudinally (8) flat beam truss (9) are placed and fixed, the angle β between